Feb 18, Biology/Plants & Animals
The research team, which was headed by Scott P. Egan, a research assistant professor with the Advanced Diagnostics and Therapeutics Initiative, and included Glen R. Hood, Gabriel DeVela and James R. Ott, investigated a special case of speciation, known as "ecological speciation," in which new species arise as a result of populations adapting to different environments.
"We do this using a peculiar group of plant-feeding insects called gall wasps, which induce cancer-like tissue growths on their host plants, within which the wasps live, feed and grow," Egan said.
The researchers compared populations of two different species of these gall wasps that each inhabit the same two environments: the sand live oak and the southern live oak. The two oak species differ in many ways, and the populations of gall wasps feeding on each oak species may therefore experience different environmental challenges, which can result in selection for different traits due to natural selection.
"We found evidence of parallel morphological differences in body size and gall size associated with host plant environment, as well as strong behavioral differences in the host plant preferences of each population, where insects prefer to settle only on their own oak and not the other," Egan said. "This is an important measure of reproductive isolation among populations that demonstrates that the host plant environment is important to the evolution of new species."
He points out that the persistent differences the researchers found in morphology and behavior among populations of both species highlight the important role of host plant use in promoting the reproductive isolation and speciation among herbivorous insect populations, which is one of the most species-rich groups of organisms on Earth.
The new paper appears in the journal PLOS ONE. The Egan group previously published two papers in the journals Biology Letters and the International Journal of Ecology on ecological speciation using one of the two species studied in the new paper. The previous papers addressed the evolution reproductive isolation in just one species associated with adaptation to different host plants. The present paper expands on this work by testing two species across the same environmental difference.
"This offers a new and powerful approach to address the general factors contributing to ecological speciation," Egan said. "By comparing distantly related taxa that inhabit the same selective environments, similarities among species can demonstrate general mechanisms of the speciation process whereas difference may uncover specific factors important to the process for an individual species."
The two species tested in the present study are two of eight species that form host-associated populations of these two live oak species across the southeastern United States. The researchers are also interested in the genetic basis of adaptation to different environments and how this contributes to the speciation process.
"To address the second factor, we plan on genotyping populations of all eight species using molecular markers across the genome of each, to ask questions of the similarities and differences at the genomic level," Egan said. "This can help us understand whether there have been similar genetic regions under selection across each of the eight species."
DeVela is a Notre Dame senior who contributed to the research described in the paper.
"My participation in the paper started as an independent project guided by Dr. Egan and doctoral candidate Glen Hood in which I had samples of gall wasps from various locations in the South and Southeast," he said.
He plans on a career in medicine and is currently finishing up the medical school application process.
"I know it may seem odd that a pre-med student chose to research insect genetics, but I was drawn to the lab because of its focus on speciation," DeVela said. "I have always been fascinated with the concept and how we can study speciation through genetics."
More information: http://www.plosone.org/article/info%3Adoi%2F10.1371%2Fjournal.pone.0054690
Provided by University of Notre Dame
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